Category Archives: Recent Research

June 28, 2013Comments Off on Scorpions Surprise Biologists – New Scorpion Species near Tucson and In the Andes4883 Views

Approximately 2,000 scorpion species have been described, but most arachnologists believe that many more await discovery. Few, however, expected an unknown species to turn up within sight of a major city in the USA. But that is what happened earlier this year, and the discovery was unusual for other reasons as well. Another noteworthy new scorpion species surfaced in the Ecuadorean Andes, a little-studied region long suspected of being a diversity hotspot for scorpions. New Arachnids of all kinds are regularly discovered…please post our own news items and thoughts at the end of this article.

Uploaded to Wikipedia Commons by Acrocynus

A Unique Scorpion from Arizona’s “Sky Islands”

One never knows where new invertebrates will appear. In 2000, a new centipede was found in NYC’s Central Park, of all places. Still, the discovery of a sizable scorpion now known as Vaejovis brysoni was surprising on several levels. The scorpion was discovered accidentally, in an area of the Santa Catalina Mountains that had been well-studied (6 new species have been found there since 2006), and within sight of Arizona’s capitol city of Tuscan (please see photo).

Also very surprising is the fact that the new scorpion’s habitat is considered by biologists to be a “sky island”. Sky islands are mountain tops that have become isolated from nearby mountains that contain similar habitats and species. The valleys between the mountain tops prevent scorpions and other animals from breeding with one another. Over time, these isolated populations evolve into distinct species. Oddly, another scorpion of the same genus is already resident on V. brysoni’s “sky island”. This is the first time that closely related animals have been found on the same mountain in this region. Learning how 2 similar species survive in close proximity to one another should provide interesting insights into scorpion evolution. Read More »

Recently I reported on a study that documented declines of 50-90% in 17 populations of 8 snake species (please see article linked below). These findings brought to mind the global amphibian decline that was first uncovered in 1990. Since then, an emerging disease caused by the fungus Batrachochytrium dendrobatitis has likely caused the extinctions of over 100 frog species. Researchers seeking to avoid a similar crisis among the world’s snakes have now identified an emerging illness, Snake Fungal Disease, as cause for serious concern. Associated with a newly-described fungus, Chrysosporium ophiodiicola, the disease has been found in several species in 9 states (USA), but is likely much more widespread.

Uploaded to Wikipedia Commons by Rkillcrazy

New Victims of a New Fungus

The global snake declines mentioned above first came to light in the late 1990’s, but explanations remain elusive. In 2008, herpetologists became alarmed when Eastern Massasaugas (or Swamp Rattlesnakes) in Illinois and Timber Rattlesnakes in New Hampshire showed evidence of an unusual fungal infection. A fungus (Chrysosporium sp.)that had previously been isolated from captive snakes, but never in the wild, was identified from head lesions on the Timber and Swamp Rattlesnakes. All of the snakes submitted for study expired.

In April of 2013, the USGS National Wildlife Health Center announced the discovery of a fungus new to science, Chrysosporium ophiodiicola. This fungus has been implicated in an emerging disease that is now afflicting snakes in the Eastern and Midwestern USA. Increasing numbers of snakes showing evidence of infection have been found by USGS biologists, who fear that the disease may devastate snake populations. Read More »

As anyone who has attempted to lift one by its tail knows, salamanders and newts can discard these body parts with no ill effect. In time, we learned that they can regenerate not only tails, but also heart, brain and spinal cord tissue…parts of any organ, it turns out, can be regrown. Furthermore, researchers describe the cell regeneration process as “perfect” – normal function is restored, and there is little if any scarring. Salamanders hold special interest for me. I’ve kept a great many species in zoos and at home, have studied several in the wild, and even had the happy opportunity to write two books on their care. I’ve always hoped that we would uncover the key to their mind-boggling abilities. I’m happy to report that a groundbreaking discovery has now given us some answers, and may lead to research of immense benefit to people suffering from a wide range of diseases and injuries.

Puloaded to Wikipedia Commons by Stan Shebs,

Why Study Salamanders?

Internally, amphibians and people show many similarities. And while most are aware of the medical significance of frog studies and dissections, few people know that the real amphibian research star is the Mexican Axolotl, Ambystoma mexicanum. Studies of this unusual aquatic salamander have led to important advances many fields, including gene expression, neurobiology and limb/organ regeneration. Read More »

I’ve been fascinated by Green Anoles, Anolis carolinensis, since childhood – way back when they were sold as “American Chameleons”. Although they are often ignored by experienced keepers, I have long featured Green Anoles and related species in zoo exhibits, where they never failed to intrigue visitors (and yours truly!). Now, it seems, they are also impressing herpetologists with learning abilities that rival those of some birds. The performances of anoles (two of which did so well that they were dubbed “Plato” and ‘Socrates”) tested at Duke University have challenged the stereotype that small lizards have limited intelligence and problem-solving abilities.

Learning, Adapting and Remembering…

Uploaded to Wikipedia Commons by IraEskins

The species studied was the Emerald or Puerto Rican Anole, Anolis evermanni. It seems likely that Green Anoles and others sharing similar lifestyles will be found to possess like abilities; further research is in progress.

The anoles were presented with a problem that would not be faced in the wild…relying upon instinct would not provide a solution. The challenge presented was to retrieve an insect that had been placed beneath a plastic lid. Emerald Anoles figured out how to lift the lid more quickly than did the birds that were tested, requiring three less trials. What’s more, the anoles had only one test each day, compared to the given the birds, so the lizards had less experience, and needed to remember their successes or failures for a longer period of time.

When multiple caps of different colors were added, the savvy anoles always chose the correct cap, apparently having associated the color or brightness with a reward. The researchers then switched tactics, placing the insect beneath a lid of a different color, and leaving the original correct choice bare. All of the anoles made initial mistakes, but ‘Socrates” and “Plato”, the individuals mentioned earlier, quickly learned to ignore their earlier lesson and consistently chose the correct lid. Read More »

In recent years, researchers have found toxins in a wide array of snakes and lizards formerly believed to be harmless…even the Bearded Dragon is not above suspicion (please see below), but venomous pythons? While working at the Bronx Zoo, I was several times called upon to assist in confiscating snakes that had appeared in the pet trade before we learned of their potentially lethal venom (i.e. Asian Watersnakes, genus Rhabdophis). All evidence of toxicity must be taken seriously…bear in mind that both the Boomslang and Savanna Twig Snake were thought to be harmless until each killed a prominent herpetologist! The recent discovery of toxins in the mucus of certain pythons poses a unique and unexpected concern for snakebite victims.

Uploaded to Wikipedia Commons by CorneliusA

Python Venom

Studies at the University of Queensland have revealed the presence of toxins in the mucus of several python species. Described as “relic venom”, they occur in only trace amounts. In common with many other snakes, pythons may have relied upon venom at some point in their evolutionary history. Although they no longer utilize venom to overcome prey or defend themselves, pythons continue to produce some toxic compounds. While some snakes bear toxins that target specific animals (i.e. Tentacled Snakes, Erpeton tentaculatum, which prey upon fish), python toxins seem to have no use, and pose no danger to people.

The toxin molecules thus far identified in pythons differ from those found in any known venomous snake. Being so chemically unique, they are of great interest to those seeking to develop new chemical compounds and medicines. Read More »

All Categories

Top That Pet Place Reptile Categories

Visit Our Sister Blogs

That Reptile Blog is designed to help promote knowledge of the pet hobby. If you wish to reference or cite specific information from a blog post, we ask that you provide a link back to the original. The content on That Reptile Blog is copyright protected and may not be duplicated without written permission. If you have any questions on this policy, feel free to send us an email at blogs@thatpetplace.com.